News Release

Single HIV mutation induces distinct T cell immune responses

Peer-Reviewed Publication

Kumamoto University

HIV Virus & T Cell Co-adaptation

image: HIV adapts to wild-type specific T cells through mutation thereby inducing two different T cell mutations, only one of which is effective. view more 

Credit: Xiaoming Sun & Professor Masafumi Takiguchi

In an effort to increase the understanding of HIV and cytotoxic T lymphocyte (CTL) co-evolution, and improve the development of T cell-mediated AIDS vaccines, which induce the creation of HIV-specific T cells within the body, a research collaboration between researchers in Japan, China, France, Kazakhstan, and the UK analyzed T cell responses to a single HIV escape mutation. The researchers looked at how the HIV single mutant was selected by different (RW8- and RF10-specific) CTLs, and investigated the new corresponding CTLs.

The research focused on a mutation that is very frequently found in individuals having the human leukocyte antigen HLA-A*24:02, which is estimated to be in approximately 70% of the Japanese population, and revealed that one mutation produced two outcomes. During HIV/CTL co-evolution, the mutation induced a new T-cell repertoire in one RF10 mutant epitope but not in the RW8 mutant epitope. The research clarified the coadaptation between a single HIV-1 mutation and T cells.

"This study demonstrated that only a single mutation selected by T cells produced 2 different outcomes in T cell adaptation suggesting a more complex co-evolution between HIV and T cell in the body," said Professor Masafumi Takiguchi of Kumamoto University, leader of the research project. "This finding will contribute to the development of an effective T cell-mediated AIDS vaccine in the future."

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[Citation]

Xiaoming Sun, Yi Shi, Tomohiro Akahoshi, Mamoru Fujiwara, Hiroyuki Gatanaga, Christian Schönbach, Nozomi Kuse, Victor Appay, George F. Gao, Shinichi Oka, Masafumi Takiguchi, Effects of a Single Escape Mutation on T Cell and HIV-1 Co-adaptation, Cell Reports, Volume 15, Issue 10, 7 June 2016, Pages 2279-2291, ISSN 2211-1247, http://dx.doi.org/10.1016/j.celrep.2016.05.017


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